Fundamentals of Terahertz Devices and Applications. Группа авторов
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Table of Contents
1 Cover
8 1 Introduction to THz Technologies
9 2 Integrated Silicon Lens Antennas at Submillimeter‐wave Frequencies 2.1 Introduction 2.2 Elliptical Lens Antennas 2.3 Extended Semi‐hemispherical Lens Antennas 2.4 Shallow Lenses Excited by Leaky Wave/Fabry–Perot Feeds 2.5 Fly‐eye Antenna Array Exercises References
10 3 Photoconductive THz Sources Driven at 1550 nm 3.1 Introduction 3.2 1550‐nm THz Photoconductive Sources 3.3 THz Metrology 3.4 THz Antenna Coupling 3.5 State of the Art in 1550‐nm Photoconductive Sources 3.6 Alternative 1550‐nm THz Photoconductive Sources 3.7 System Applications Exercises References Explanatory Notes (see superscripts in text)
11 4 THz Photomixers 4.1 Introduction 4.2 Photomixing Basics 4.3 Modeling THz Photomixers 4.4 Standard Photomixing Devices 4.5 Optical Cavity Based Photomixers 4.6 THz Antennas 4.7 Characterization of Photomixing Devices Exercises References
12 5 Plasmonics‐enhanced Photoconductive Terahertz Devices 5.1 Introduction 5.2 Photoconductive Antennas 5.3 Plasmonics‐enhanced Photoconductive Antennas 5.4 Conclusion and Outlook Exercises References
13 6 Terahertz Quantum Cascade Lasers 6.1 Introduction 6.2 Fundamentals of Intersubband Transitions 6.3 Active Material Design 6.4 Optical Waveguides and Cavities 6.5 State‐of‐the‐Art Performance and Limitations 6.6 Novel Materials Systems 6.7 Conclusion Acknowledgments Exercises References
14 7 Advanced Devices Using Two‐Dimensional Layer Technology 7.1 Graphene‐Based THz Devices 7.2 TMD Based THz Devices 7.3 Applications Exercises References
15
8 THz Plasma Field Effect Transistor Detectors
8.1 Introduction
8.2 Field Effect Transistors (FETs) and THz Plasma Oscillations
8.3 THz Detectors Based on Silicon FETs
8.4 Terahertz Detection by Graphene Plasmonic FETs
8.5 Terahertz Detection in Black‐Phosphorus Nano‐Transistors